会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 1. 发明授权
    • 폐촉매에서 회수한 백금을 이용한 연료전지용 백금 담지 촉매 제조방법
    • 使用来自废催化剂的再循环铂制备用于燃料电池的负载在炭黑上的铂催化剂的方法
    • KR101452809B1
    • 2014-10-22
    • KR1020130043923
    • 2013-04-22
    • (주)알티아이엔지니어링
    • 신장식곽인섭김영애오경준문성준김옥선유난숙
    • B01J37/04B01J23/42
    • B01J38/485B01J23/42B01J38/72B09B3/00
    • The present invention relates to a method for preparing a platinum-supported catalyst, which recovers a platinum ion solution of high concentration from a spent catalyst through leaching, absorption, and impurities removing processes, and reduces and supports the same on the surface of carbon black. The platinum-supported catalyst prepared by the present invention can reduce costs for preparing a platinum catalyst because platinum recovered from the spent catalyst is used. Also, the present invention sequentially operates a process of recovering platinum from the spent waste and a process of preparing the platinum catalyst, doesn′t need a process such as reduction or washing which is needed for an existing process of recovering platinum, and a step of storage or moving, and also doesn′t require a process of melting common platinum which is needed for a process of preparing the platinum catalyst, thereby innovatively improving the process efficiency.
    • 本发明涉及一种制备铂负载型催化剂的方法,该催化剂通过浸出,吸收和杂质去除方法从废催化剂中回收高浓度的铂离子溶液,并将其还原并支持在炭黑的表面上 。 本发明制备的铂负载催化剂可以降低制备铂催化剂的成本,因为使用从废催化剂中回收的铂。 此外,本发明依次操作从废废物中回收铂的方法和制备铂催化剂的方法,不需要铂回收现有方法所需的还原或洗涤方法,步骤 的储存或移动,并且也不需要熔化制备铂催化剂的方法所需的普通铂的方法,从而创新地提高了工艺效率。
    • 2. 发明公开
    • 폴리케톤 중합 반응폐액으로부터 귀금속을 회수하는 방법
    • 从聚酮回收重金属的方法
    • KR1020120103079A
    • 2012-09-19
    • KR1020110021112
    • 2011-03-09
    • (주)알티아이엔지니어링
    • 신장식한상철곽인섭구정분김영애권현지오경준
    • C22B11/00C22B7/00
    • C22B7/00C22B3/42C22B7/006C22B11/042Y02P10/214Y02P10/234
    • PURPOSE: A method for recovering precious metal is provided to more effectively adsorb palladium from waste liquid left after polymerization of polyketone by using anion exchange resin. CONSTITUTION: A method for recovering precious metal from waste liquid left after polymerization of polyketone comprises the steps of: filtering polyketone produced from polymerization of polyketone with a reaction medium to obtain first waste liquid, recovering the reaction medium from first and second waste liquid through distillation to obtain distilled waste liquid, adsorbing and separating palladium from the distilled waste liquid using ion exchange resin, and desorbing the palladium from the ion exchange resin to recover concentrated palladium. [Reference numerals] (AA) Polyketone polymerization; (BB) Polyketone slurry; (CC) Polyketone powder; (DD) Distillation tower; (EE) Adsorption process; (FF) Desorption process; (GG) First waste liquid; (HH) Second waste liquid; (II) Solid-liquid separation; (JJ) Drying; (KK) Ethanol; (LL) Distilled waste liquid; (MM) Reuse as a material for reaction; (NN) Recovery of highly-concentrated precious metal liquid
    • 目的:提供一种回收贵金属的方法,通过使用阴离子交换树脂,更有效地吸收聚酮聚合后残留的废液中的钯。 构成:从聚酮聚合后残留的废液中回收贵金属的方法包括以下步骤:过滤由聚酮聚合反应介质产生的聚酮,得到第一废液,通过蒸馏从第一和第二废液回收反应介质 获得蒸馏废液,使用离子交换树脂从蒸馏废液中吸附和分离钯,并从离子交换树脂中解吸钯以回收浓缩的钯。 (AA)聚酮聚合; (BB)聚酮浆料; (CC)聚酮粉末; (DD)蒸馏塔; (EE)吸附过程; (FF)解吸过程; (GG)第一废液; (HH)第二废液; (二)固液分离; (JJ)干燥; (KK)乙醇; (LL)蒸馏废液; (MM)重复使用作为反应材料; (NN)高浓度贵金属液体的回收
    • 5. 发明公开
    • 열교환이 용이한 피셔-트롭쉬 합성 반응용 반응기
    • FISCHER-TROPSCH反应器易于热交换
    • KR1020160022128A
    • 2016-02-29
    • KR1020140107831
    • 2014-08-19
    • (주)알티아이엔지니어링
    • 한상철유난숙문성준곽인섭김영애오경준
    • B01J8/02B01J19/24
    • B01J19/2415B01J8/02B01J2219/24
    • 본발명은반응기내에서셀형공간으로구획되는열교환관에열원으로사용되는예열제나냉각을위한냉각제를빠르게통과시켜반응기내부및 촉매층과의열교환이이루어지게함으로써반응온도까지고르게열을상승유도시킬수 있고반응에따른발열시반응기내의온도상승을억제해촉매와반응물과의온도를유지시킬수 있어서반응효율을향상시킬수 있는열교환이용이한피셔-트롭쉬합성반응용반응기에관한것으로, 주반응물이투입되는상부투입부; 반응에의한생성물이배출되는하부배출부; 상기상부투입부와하부배출부사이에결합되는본체부; 및촉매가내장될수 있는내부공간을가지며, 상기본체부내에기립고정되고상부로부터주반응물을전달받아내부촉매와반응시키는적어도하나이상의반응관; 을포함하며, 상기본체부는상기반응관이점유하지않아셀형공간으로구획되는열교환관을통해온도조절제를주입받고해당열교환관을따라온도조절제를이동시킴으로써반응관과열교환을이루는것을특징으로한다.
    • 本发明涉及一种易于热交换的费 - 托合成反应器,其可以通过与反应器内部进行热交换和催化剂层进行热交换,从而将热均匀地提高到反应温度 通过快速通过用作热源的预热剂或通过分解成反应器中的电池型空间的热交换管进行冷却的制冷剂,并且可以保持催化剂和反应物之间的温度可以提高反应效率 通过根据反应加热来抑制反应器中的温度升高。 反应器包括:注入主反应物的上注射单元; 排出反应产物的较低排放单元; 组合在上喷射单元和下喷射单元之间的主体单元; 并且一个或多个具有可以嵌入催化剂的内部空间的反应管直立地固定在主体单元中,并且从上部接收主反应物并使主反应物与内部催化剂反应。 主体单元接收通过热交换管注入的温度调节器,分配成不被反应管占据的电池型空间,并沿着相应的热交换管移动温度调节器,以便允许与 反应管。
    • 8. 发明公开
    • 유가금속 회수 장치 및 이를 이용한 유가금속 회수 방법
    • 用于恢复精细金属和恢复方法的装置
    • KR1020140040356A
    • 2014-04-03
    • KR1020120106842
    • 2012-09-26
    • (주)알티아이엔지니어링
    • 곽인섭신장식김영애오경준문성준김옥선
    • C22B7/00C22B11/00
    • Y02P10/212C22B11/00C22B7/00
    • The present invention relates to a recovery apparatus and a method for recovering valuable metal, capable of separating valuable metal from waste solution by adsorbing the valuable metal present in the waste solution, including: an adsorbing instrument, capable of selectively adsorbing valuable metal present in the waste solution; a valuable metal recovery unit, surrounding the adsorbing instrument, prepared with an incineration instrument capable of incinerating valuable metal, adsorbed to the adsorbing instrument, into a reduced form; and a rapid heating unit prepared with a rapid heating instrument built with hot wires so as to guide a high-temperature heat wave using the adsorbing instrument, and desiccate the adsorbing instrument by the heat wave.
    • 本发明涉及一种回收装置和回收有价值金属的方法,该方法能够通过吸附废溶液中存在的有价值金属从废溶液中分离有价金属,包括:吸附装置,能够选择性地吸附存在于 废液; 使用能够将吸附到吸附装置上的有价值金属焚烧的焚烧装置制备成减少形式的围绕吸附装置的有价值的金属回收装置; 以及用热丝构成的快速加热仪器制备的快速加热单元,以便使用吸附装置引导高温热波,并通过热波干燥吸附装置。
    • 9. 发明公开
    • 폐촉매에서 회수한 백금을 이용한 연료전지용 선택적 산화 촉매 제조방법
    • 使用来自活性催化剂的回收白蛋白制备燃料电池的选择性氧化物催化剂的方法
    • KR1020150138878A
    • 2015-12-11
    • KR1020140065578
    • 2014-05-30
    • (주)알티아이엔지니어링
    • 신장식곽인섭김영애오경준문성준김옥선유난숙
    • H01M4/88H01M4/92H01M8/02
    • Y02P70/56
    • 본발명은폐촉매로부터백금의침출, 흡착및 불순물제거공정을거쳐고농도의백금이온용액을회수하고이를연료전지용선택적산화촉매로제공하는방법에관한것이다. 본발명은구리와세륨을사용하여백금사용량을획기적으로줄이면서도백금만을사용한경우와비교하여거의동등한성능을가지는선택적산화촉매를제공하는것이다. 본발명에의해제조된선택적산화촉매는폐촉매에서회수된백금을사용하므로백금촉매비용을줄일수 있다. 또한, 본발명은폐촉매에서백금을회수하는공정과선택적산화촉매제조공정을연속적으로수행하므로, 종래백금회수공정에필요한환원, 세척등의공정과이후보관이나이동등의단계들이필요치않으며, 또한, 백금촉매를제조하는공정에필요한상용백금을녹이는공정이요구되지않으므로공정효율을획기적으로높일수 있다.
    • 本发明涉及一种通过从废催化剂中浸出和吸附铂并除去其中的杂质以提供还原的高浓度铂离子溶液作为燃料电池的选择性氧化催化剂来回收高浓度铂离子溶液的方法。 本发明使用铜和铈显着减少所使用的铂的量,同时提供能够保持与仅使用铂的催化剂几乎相同的性能的选择性氧化催化剂。 使用该方法制备的选择性氧化催化剂使用从废催化剂回收的铂来降低铂催化剂成本。 本发明持续地执行从废催化剂中回收铂的方法和选择氧化选择氧化催化剂制备方法,以省略常规铂回收方法所必需的还原和洗涤方法以及储存和输送步骤。 本发明也不需要一种熔化铂催化剂制备方法所需的商业铂的方法,以显着提高工艺效率。